CN108697025B

CN108697025B - Assembly prompting method of rack-mounted server system

Info

Publication number: CN108697025B
Application number: CN201710220304.2A
Authority: CN
Inventors: 张凯铭
Original assignee: Shencloud Technology Co Ltd; Shunda Computer Factory Co Ltd
Current assignee: Shencloud Technology Co Ltd; Shunda Computer Factory Co Ltd
Priority date: 2017-04-06
Filing date: 2017-04-06
Publication date: 2020-12-04
Anticipated expiration: 2037-04-06
Also published as: CN108697025A

Abstract

An assembly prompting method of a rack server system comprises a starting step, a reading step, a searching step and a placing prompting step. In the starting step, an execution module of a management device is controlled to be started to generate an operation interface. In the reading step, a reading device controllably reads information of an identification unit on one of the server units that is expected to be placed in a cabinet. In the searching step, the execution module searches an assembly information corresponding to the server unit according to the information of the identification unit. In the placement prompting step, an image unit corresponding to the assembly information is displayed on the operation interface, and placement information of the server unit which is expected to be placed in a containing space corresponding to a cabinet is marked on the image unit, so that a user can place the server unit in the containing space corresponding to the cabinet conveniently.

Description

Assembly prompting method of rack-mounted server system

Technical Field

The present invention relates to a server system, and more particularly, to an assembly prompting method for a rack-mounted server system.

Background

With the wide application and development of servers, enterprises related to information, finance, computers and the like all have the requirement of using a large number of server architectures, and at present, a rack-mounted server is commonly used in a machine room to centrally manage a plurality of servers, so that the occupation of server space is reduced.

Generally, when a rack server is assembled, each server has a corresponding placement position in a cabinet to facilitate management and subsequent wiring assembly operations, and a user needs to place each server at the corresponding position in the cabinet first, and then connect the servers in a wiring manner according to a required assembly manner, so that the rack server can normally operate. However, in the assembly process, the server is misplaced to cause a wrong connection link, which makes the rack-mounted server inoperable, and the number of servers is huge, so that it takes a lot of time for the user to compare the server with the misplaced server. Although the existing method for attaching the management tag to the server is convenient for managing records, it still takes time to find the corresponding position of the cabinet and the user cannot know the position of the server by mistake. Moreover, if a problem is found in a subsequent wiring test, the server with the misplaced position still needs to be compared again, which not only wastes time but also wastes manpower. In addition, in the wiring process, a user needs to carefully and one by one inquire the wiring position of the port of each server to perform wiring operation, which is not in line with cost benefit and needs to discuss and improve greatly.

Disclosure of Invention

Therefore, an object of the present invention is to provide an assembly prompting method for a rack server system, which improves assembly efficiency.

Therefore, the assembly prompting method of the rack-mounted server system is applied to the rack-mounted server system. The rack-mounted server system comprises a cabinet, a plurality of server units, a plurality of identification units and a processing system. The cabinet comprises a plurality of accommodating spaces for accommodating the server units. The identification units are respectively arranged on the server units. The processing system comprises a reading device and a management device. The management device is provided with an execution module and a configuration module. The configuration module records assembly information of the cabinet corresponding to the server units, wherein the assembly information comprises information that the server units are respectively expected to be placed in the corresponding accommodating spaces.

The assembly prompting method of the rack-mounted server system comprises a starting step, a reading step, a searching step and a placing prompting step.

In the starting step, an execution module of the management device is controlled to be started to generate an operation interface.

In the reading step, the reading device of the processing system is controlled to read the information of the identification unit on one of the server units which is expected to be placed in the cabinet.

In the searching step, the executing module searches the assembly information of the cabinet corresponding to the server unit from the configuration module according to the information of the identification unit read in the reading step.

In the placement prompting step, the execution module displays an image unit corresponding to the assembly information on the operation interface, displays placement information of the server unit which is expected to be placed in the corresponding accommodating space on the image unit, returns to the reading step again, and sequentially executes the reading step, the searching step and the placement prompting step until the server units are all placed in the corresponding accommodating space.

Compared with the prior art, in the searching step, the execution module displays the image unit corresponding to the assembly information corresponding to the server unit on the operation interface according to the received information of the identification unit and in the step of matching with the placement prompt, and the placement information of the server unit is marked on the image unit, so that a user can place the server unit in the corresponding accommodating space conveniently, and the efficiency of assembly operation is effectively improved.

[ description of the drawings ]

Other features and effects of the present invention will become apparent from the following detailed description of the embodiments with reference to the accompanying drawings, in which:

FIG. 1 is a schematic front view illustrating an embodiment of an assembly prompting method for a rack server system according to the invention applied to a rack server system.

Fig. 2 is a flowchart to assist in explaining fig. 1.

Fig. 3 is a schematic diagram illustrating an operation interface showing a relationship between an image unit, placement information, and connection information in this embodiment.

Fig. 4 is a schematic diagram to assist in explaining fig. 3.

Fig. 5 is a schematic diagram illustrating the operation interface displaying the relationship between the image unit, the connection information and the plurality of warning members in the embodiment.

[ detailed description ] embodiments

Before the present invention is described in detail, it should be noted that in the following description, similar components are denoted by the same reference numerals.

Referring to fig. 1, 2 and 3, the assembly prompting method of the rack-mount server system of the invention is applied to a rack-mount server system 10. The rack server system 10 includes a cabinet 11, a plurality of server units 12, a plurality of identification units 13, a processing system 14, and a server control unit 15 linked with the processing system 14.

The cabinet 11 includes a plurality of accommodating spaces 111 for accommodating the server units 12. The identification means 13 is provided in the server means 12 and the server control means 15, respectively. Each server unit 12 has a baseboard management controller (not shown). The processing system 14 includes a reading device 141 and a management device 142. The management device 142 has an execution module 143 and a configuration module 144. The configuration module 144 records an assembly information (not shown) of the server unit 12 and the server control unit 15 where the cabinet 11 is expected to be placed. The assembly information includes information that the server unit 12 and the server control unit 15 are respectively expected to be placed in the corresponding accommodating spaces 111 and the wiring information 53. The server control unit 15 is linked with the management device 142 of the processing system 14 and has a plurality of serial ports 151, the serial ports 151 respectively correspond to the server units 12, and each server unit 12 has a port 121 connected with the corresponding serial port 151.

The assembly prompting method of the rack-mounted server system comprises a starting step 2, a reading step 3, a searching step 4, a placing prompting step 5, a wiring prompting step 6, a detecting step 7 and a prompting step 8.

First, in the activation step 2, the execution module 143 of the management device 142 is controlled to be turned on to generate an operation interface 21. And in the reading step 3, the reading device 141 of the processing system 14 controllably reads the information of the identification unit 13 on one of the server units 12 that is expected to be placed in the cabinet. In other words, the user opens the execution module 143 of the management device 142 to operate on the operation interface 21, and then the user uses the reading device 141 to read the information of the identification unit 13 on one of the server units 12. In this embodiment, the reading device 141 is a Barcode scanner (Barcode scanner), the operation interface 21 is a screen display, each of the identification units 13 is an identification Barcode pattern disposed on the corresponding server unit 12, and records information such as a product Number (Part Number) and a product Serial-Number (Serial-Number) of the corresponding server unit 12, but not limited thereto, as long as the server unit 12 can be identified for management.

Next, in the searching step 4, the executing module 143 searches the assembly information of the cabinet 11 corresponding to the server unit 12 from the configuring module 144 according to the information of the identification unit 13 read in the reading step 3. In the placement prompting step 5, the executing module 143 displays an image unit 51 corresponding to the assembly information on the operation interface 21, and respectively displays a placement information 52 and a corresponding connection information 53 of the server unit 12 that is expected to be placed in the corresponding accommodating space 111 on the image unit 51, and then returns to the reading step 3 again and sequentially executes the reading step 3, the searching step 4 and the placement prompting step 5 until the server unit 12 and the server control unit 15 are all placed in the corresponding accommodating space 111. That is, when the executing module 143 compares the received information of the identifying unit 13 with the data of the configuring module 144, the image of the assembly information corresponding to the server unit 12 is displayed on the operation interface 21. The image unit 51 corresponding to the server unit 12 currently processed by the user is displayed on the operation interface 21, and the image unit 51 and the placement information 52 mark the corresponding accommodating space 111 where the server unit 12 is expected to be placed, so that the user can correctly place the server unit 12 in the corresponding accommodating space 111 only according to the information of the image unit 51, thereby ensuring the correctness of the subsequent assembly operation. After the server unit 12 that is processed is placed in the corresponding accommodating space 111, the user returns to the reading step 3 to continue processing another server unit 12 or the server control unit 15 that is to be placed in the cabinet 11 next, and the processes of the reading step 3, the searching step 4, and the placing prompting step 5 are sequentially performed, which is not described herein again. In addition, in the embodiment, the server control unit 15 is a network Switch (Switch) which is suitable for managing tens of server units 12 and performing data transmission, and is usually disposed in the accommodating space 111 at the uppermost layer of the cabinet 11 for facilitating the wiring operation and subsequent management, but not limited thereto, if there are only a few server units 12 in the cabinet 11, for example, only 3 to 4 server units, one server unit 12(Master) may be used to manage the other server units 12 (Slave).

It should be noted that, when the image unit 51 of the assembly information corresponding to the server unit 12 is displayed on the operation interface 21, the image unit 51 includes a front view 511 corresponding to the assembly information and a back view 512 corresponding to the assembly information. The placement information 52 includes a placement indicator 521, and the wiring information 53 includes a plurality of wiring indicators 531. The operation interface 21 displays the front view 511 and the rear view 512 of the image unit 51, the placement indicator 521, and the wiring indicator 531. The placement indicator 521 indicates the corresponding accommodating space 111 in the front view 511 where the server unit 12 is expected to be placed, and a connection indicator 531 indicates the corresponding connection information 53 of the server unit 12 in the rear view 512. It should be further noted that the front view 511 of the image unit 51 is only marked by the placement indicator 521 for the accommodating space 111 where the corresponding server unit 12 is expected to be placed, which is read in the reading step 3, and the back view 512 of the image unit 51 is marked by one of the wiring indicators 531 for the corresponding wiring information 53 of the server unit 12 and the wiring indicator 531 that is marked previously is kept displayed. In detail, each time the user reads the corresponding server unit 12 in the reading step 3, in the placement prompting step 5, the front view 511 of the image unit 51 is marked by the placement indicator 521 only the accommodating space 111 where the corresponding server unit 12 processed by the user is expected to be placed; the rear view 512 of the image unit 51 is marked with the wiring information 53 of the corresponding server unit currently processed by the user by one of the wiring markers 531, and also remains to display the wiring marker 531 marked previously, so that the user can place all the server units 12 in the corresponding accommodating spaces 111 and then perform wiring according to the information of the wiring marker 531 matched with the rear view 512 of the image unit 51.

Referring to fig. 1, fig. 2 and fig. 4, next, in the wiring prompting step 6, the wiring information further includes a plurality of wiring reminding members 61, the wiring indication members 531 are respectively grouped in pairs, therefore, each wiring indicator 531 has another corresponding wiring indicator 531, the wiring reminder 61 is used to connect two wiring indicators 531 corresponding to each other, after the server unit 12 and the server control unit 15 are placed in the corresponding accommodating spaces 111 of the cabinet 11 according to the front view 511 of the image unit 51, the executing module 143 connects the wiring reminders 61 to the corresponding markers 531 in pairs respectively in the rear view 512, the user can conveniently perform the wiring operation between the server unit 12 and the server control unit 15 according to the wiring indicator 531 and the wiring reminder 61 indicated in the rear view 512. In this embodiment, the connection reminding member 61 is a connection line, when the execution module 143 has received the information of all the server units 12 and the identification units 13 corresponding to the server control unit 15, the execution module 143 will automatically connect the connection reminding member 61 to the two corresponding marking members 531 in the back view 512, but not limited thereto, a connection function button (not shown) for the user to select may be designed on the operation interface 21 according to the use requirement, and the execution module 143 may connect the connection reminding member 61 to the two corresponding marking members 531 appearing on the back view 512 only by selecting the connection function button, so long as the purpose of prompting the user to connect the connection is achieved.

In addition, it is to be particularly noted that in the placement prompting step 5, the back view 512 of the image unit 51 displays the serial port 151 of the server control unit 15 and the port 121 of each server unit 12, the connection indicators 531 are respectively marked on the serial port 151 and the port 121, and the connection indicators 531 marked on the serial port 151 and the corresponding port 121 are respectively grouped with the connection indicators 531 of the corresponding port 121, while in the connection prompting step 6, the connection reminders 61 are respectively connected with the corresponding connection indicators 531 grouped in pairs, so that a user can quickly connect the serial port 151 of the server control unit 15 with the corresponding port 121 of the server unit 12 by referring to the information of the back view 512 and matching the connection indicators 531 and the connection reminders 61 grouped in pairs, thereby ensuring the correctness of the subsequent link operation. In this embodiment, the wiring indicating members 531 are in a color indication mode, and the wiring indicating members 531 are grouped in pairs, so that each wiring indicating member 531 and the corresponding other wiring indicating member 531 are designed to have the same color indication, but not limited thereto, and each wiring indicating member 531 and the corresponding other wiring indicating member 531 can also be designed to have the same shape indication, as long as the wiring operation can be conveniently performed by the user.

After the user connects the server units 12 and the server control unit 15, in the detection step 7, the execution module 143 of the management device 142 is controlled to send a plurality of detection instructions to the server control unit 15 and respectively transmitted to the corresponding ports 121 through the serial ports 151, and the bmc of each server unit 12 receives the corresponding detection instructions through the corresponding ports 121. When the port 121 of each server unit 12 is connected to the corresponding serial port 151, each server unit 12 will send back a response command to the execution module 143 via the server control unit 15; when the port 121 of each server unit 12 is not connected to the corresponding serial port 151, the response command is not returned to the server control unit 15. In this embodiment, the Management device 142 is connected to the bmc of the server unit 12 by an Intelligent Platform Management Interface (IPMI), the detection instructions are detection information corresponding to the MAC addresses (MAC addresses) of the server unit 12, the detection information is transmitted to the corresponding ports 121 by the corresponding serial ports 151 in a packet form, and when the port 121 of each server unit 12 is connected to the corresponding serial port 151, each server unit 12 receives the corresponding detection information and transmits a corresponding response instruction to the server control unit 15; if each port 121 is connected to the wrong serial port 151, the wrong connected port 121 will not receive the corresponding detection information and cannot send back the corresponding response command to the server control unit 15, so as to determine whether the port 121 is connected to the corresponding serial port 151, thereby ensuring the correctness of the connection. However, the detection instructions may be, according to actual design requirements, detection information corresponding to a hardware product Number (Part Number) of the server control unit 15, or detection information corresponding to a network Address (IP Address) of the server control unit 15.

Referring to fig. 1, fig. 2 and fig. 5, finally, in the reminding step 8, the operation interface 21 further displays a plurality of warning elements 81, the executing module 143 of the management apparatus 142 marks each port 121 that does not return the response instruction according to the result of the detecting step 7, and marks the ports 121 that are not correctly connected with the warning elements 81 in cooperation with the back view 512 of the image unit 51, and marks the server units 12 corresponding to the ports 121 that are not correctly connected with the front view 511 of the image unit 51 with the warning elements 81. By means of the fact that the rear view 512 of the image unit 51 is marked by the warning element 81 to respectively indicate the ports 121 which are not correctly connected, and the front view 511 is marked by the warning element 81 to respectively indicate the server units 12 corresponding to the ports 121 which are not correctly connected, a user can quickly analyze and confirm whether the reasons of the ports 121 which are not correctly connected are simple wiring errors or the wiring errors caused by the fact that the corresponding server units 12 are not placed in the corresponding accommodating spaces 111, the user can find out the server units 12 with the wiring errors and misplaced positions without comparing one by one, time is effectively saved, and assembly efficiency is greatly improved.

In summary, in the assembly prompting method of the rack-mounted server system of the present invention, the executing module 143 displays the image unit 51 corresponding to the assembly information corresponding to the server unit 12 on the operation interface 21 according to the received information of the identifying unit 13, and the placing information 52 and the wiring information 53 of the server unit 12 are respectively indicated on the image unit 51, so as to facilitate the user to place the server unit 12 in the corresponding accommodating space 111 and execute the subsequent wiring operation, thereby effectively improving the efficiency of the assembly operation, and indeed achieving the object of the present invention.

The embodiments and examples of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the embodiments and examples, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present invention.

Claims

1. An assembly prompting method of a rack server system is applied to the rack server system and is characterized in that the rack server system comprises a cabinet, a plurality of server units, a plurality of identification units and a processing system, the cabinet comprises a plurality of accommodating spaces for accommodating the server units, the identification units are respectively arranged on the server units, the processing system comprises a reading device and a management device, the management device comprises an execution module and a configuration module, the configuration module records assembly information of the cabinet corresponding to the server units, the assembly information comprises information of the server units respectively expected to be arranged in the corresponding accommodating spaces, and the assembly prompting method of the rack server system comprises the following steps:

a starting step, controlled executing the execution module to generate an operation interface, wherein the operation interface is a picture displayed by a screen;

a reading step, the reading device controllably reads the information of the identification unit on one of the server units expected to be placed in the cabinet;

a searching step, the executing module searches the assembly information of the server unit corresponding to the cabinet from the configuration module according to the information of the identification unit read in the reading step; and

a placement prompting step, the executing module displays an image unit corresponding to the assembly information on the operation interface, and respectively displays a placement information and a corresponding wiring information of the server unit which is expected to be placed in the corresponding accommodating space on the image unit, and executes the reading step again and sequentially executes the reading step, the searching step and the placement prompting step until the server unit is completely placed in the corresponding accommodating space, wherein the image unit comprises a front view corresponding to the assembly information and a rear view corresponding to the assembly information, the placement information comprises a placement marker, the wiring information comprises a plurality of wiring markers, the placement marker marks the front view, the server unit is expected to be placed in the corresponding accommodating space, and one of the wiring markers marks the rear view, corresponding wiring information of the server unit.

2. The assembly prompting method of a rack-mounted server system according to claim 1, wherein in the placement prompting step, the placement indicator only shows the accommodating space, in which the corresponding server unit is expected to be placed, read in the reading step in the front view icon, and one of the wiring indicators shows the corresponding wiring information of the server unit in the rear view and keeps displaying the wiring indicator that has been previously indicated.

3. The assembly prompting method of the rack-mounted server system according to claim 2, further comprising a wiring prompting step following the placing prompting step, wherein the wiring markers are grouped in pairs, each corresponding to another wiring marker.

4. A method as claimed in claim 3, wherein the rack server system further comprises a server control unit connected to the management device of the processing system, the server control unit has a plurality of serial ports, each server unit has a port connected to the corresponding serial port, wherein in the step of placing indication, the rear view of the graphic unit displays the serial ports of the server control unit and the ports of each server unit, the connection indicators are respectively indicated on the serial ports and the ports, and the connection indicators indicated on the serial ports are respectively grouped with the connection indicators of the corresponding ports.

5. The assembly prompting method of a rack-mounted server system according to claim 4, wherein each server unit of the rack-mounted server system has a baseboard management controller, wherein the assembly prompting method of the rack-mounted server system further comprises a detection step following the connection prompting step, in the detection step, the execution module of the management device is controlled to send a plurality of detection commands to the server control unit and respectively transmitted to the corresponding ports by the serial ports, and the baseboard management controller of each server unit receives the corresponding detection command by the corresponding port, and when the port of each server unit is connected to the corresponding serial port, each server unit will transmit a response command back to the server control unit; when the port of each server unit is not correctly connected to the corresponding serial port, the response command cannot be returned to the server control unit.

6. The assembly prompting method of a rack-mounted server system according to claim 5, further comprising a prompting step following the detecting step, wherein in the prompting step, the operation interface further displays a plurality of warning members, the executing module of the management device marks each port that does not return the response instruction according to the result of the detecting step and matches the rear view of the image unit with the warning member to respectively mark the port that is not correctly connected, and marks the front view of the image unit with the warning member to respectively mark the server unit corresponding to the port that is not correctly connected.

7. The assembly prompting method of claim 5, wherein in the detecting step, the detecting commands are respectively detecting information corresponding to network addresses of the server units, the detecting information is respectively transmitted from the corresponding serial ports to the corresponding ports, and the baseboard management controller of each server unit receives the corresponding detecting information from the corresponding port and then transmits a corresponding response command back to the server control unit.

8. The assembly prompting method of claim 5, wherein in the detecting step, the detecting commands are respectively detecting information corresponding to MAC addresses of the server units, the detecting information is respectively transmitted from the corresponding serial ports to the corresponding ports, and the BMC of each server unit receives the corresponding detecting information from the corresponding port and transmits a corresponding response command back to the server control unit.

9. The assembly prompting method of claim 5, wherein in the detecting step, the detecting commands are respectively detecting information corresponding to hardware product numbers of the server units, the detecting information is respectively transmitted from the corresponding serial ports to the corresponding ports, and the baseboard management controller of each server unit receives the corresponding detecting information from the corresponding port and then transmits a corresponding response command back to the server control unit.